1. SPINAL CORD INJURY Case in Neurosurgery Section A USTFMS

2. A 50 y/o male was thrown from his motorcycle and landed on his head. He was then brought to a hospital some 30 km far reclining just at the back seat of a car. He continues to complain of persistent nape pain that radiates down to the lateral aspect of his right forearm. On arrival at the ER, he was noted to have difficulty moving all extremities. He has numbness from neck down with no difficulty breathing.

3. Physical examinations revealed the following: – Diminished pain and temperature sensation from neck down – Position and vibratory senses intact

4. MotorRightLeft Elbow flexion BicepsGood BrachioradialisWeak Elbow extension TricepsWeak Hip FlexionWeak Hip ExtensionWeak Knee FlexionWeak Knee ExtensionWeak

5. DTRsRightLeft Biceps++ Brachioradialis++ Triceps+++ Knee Jerk+++ Ankle Jerk+++ Bilateral Babinski and ankle clonus

6. Spinal Cord Injury an insult to the spinal cord resulting in a change, either temporary or permanent, in its normal motor, sensory, or autonomic function International Standards for Neurological and Functional Classification of Spinal Cord Injury - a widely accepted system describing the level and the extent of injury based on a systematic motor and sensory examination of neurologic function

7. The following terminology has developed around classification of SCI: Tetraplegia (quadriplegia) - injury to the spinal cord in the cervical region ; loss of muscle strength in all 4 extremities Paraplegia - injury in the spinal cord in the thoracic, lumbar, or sacral segments, including the cauda equina and conus medullaris

8. SCI can be sustained through: Destruction from direct trauma Compression by bone fragments, hematoma, or disk material Ischemia from damage or impingement on the spinal arteries

9. Spinal Cord Injuries Complete or Partial 1) Complete = cause permanent quadriplegia or paraplegia, depending on the level of injury Complete loss of motor function & sensation 2 or more levels below the bony injury

10. 2) Partial: Central cord syndrome – usually in elderly who suffer hyperextension injuries; motor, pain & temp preserved in LE but diminished in UE – Some functional recovery but seldom return to normal Anterior cord syndrome – diminished motor function & pain, temp. sensation below level of injury; position, vibratory sensation & crude touch maintained – Prognosis for recovery- poor Brown Sequard syndrome- result of penetrating injury; R or L half of sp.cord is transected; ipsilateral loss of motor fxn, proprioception, vibratory sensation; pain & temp. sensation lost on contraleteral side

11. Key muscles = level of injury C5 - Elbow flexors (biceps, brachialis) C6 - Wrist extensors (brachioradialis, extensor carpi radialis longus and brevis) C7 - Elbow extensors (triceps) C8 - Finger flexors (flexor digitorum profundus) to the middle finger T1 - Small finger abductors (abductor digiti minimi) L2 - Hip flexors (iliopsoas) L3 - Knee extensors (quadriceps) L4 - Ankle dorsiflexors (tibialis anterior) L5 - Long toe extensors (extensors hallucis longus) S1 - Ankle plantar flexors (gastrocnemius, soleus)

12. Myotome Each muscle in the body is supplied by a particular level or segment of the spinal cord and by its corresponding spinal nerve. The muscle, and its nerve make up a myotome.

13. MotorRightLeft Elbow flexion BicepsGood BrachioradialisWeak Elbow extension TricepsWeak Hip FlexionWeak Hip ExtensionWeak Knee FlexionWeak Knee ExtensionWeak C6 C5 C7 L2 L3 L2

14. Types of SC Injury Trauma: crashes, falls, gunshots, diving accidents, war injuries, etc. Tumors Ischemia resulting from occlusion of spinal blood vessels, including dissecting aortic aneurysms, emboli, arteriosclerosis. Developmental disorders: spina bifida, meningomyelocoele, etc. Neurodegenerative diseases: spinocerebellar ataxia, etc. Demyelinative diseases: MS Transverse myelitis resulting from stroke, inflammation, etc. Vascular malformations: AVM, AVF, spinal hemangiona, cavernous angioma and aneurysm.

15. American Spinal Injury Association (ASIA) Classification Based on neurological responses, touch and pinprick sensations tested in each dermatome, and strength of ten key muscles on each side of the body, Traumatic spinal cord injury: 5 categories A: "complete" SC injury where no motor/sensory function is preserved in the sacral segments S4-S5. B: "incomplete" SC injury where sensory but not motor function is preserved below the neurological level and includes the sacral segments S4-S5 C: "incomplete" SC injury where motor function is preserved below the neurological level and more than half of key muscles below the neurological level have a muscle grade of less than 3, which indicates active movement with full range of motion against gravity. D: "incomplete" SC injury where motor function is preserved below the neurological level and at least half of the key muscles below the neurological level have a muscle grade of 3 or more. E: "normal" where motor/sensory scores are normal.

16. Anterior Cord Syndrome Results from injury to the anterior part of the spinal cord, causing weakness and loss of pain and thermal sensations below the injury site but preservation of proprioception that is usually carried in the posterior part of the spinal cord

17. The Patient Partial Spinal Cord Traumatic Injury Anterior Cord Syndrome – (C6 and below affected) – diminished motor function & pain, temp. sensation below level of injury; position, vibratory sensation & crude touch maintained

18. On-Site Diagnosis of Spinal Injury Assume Spinal Cord Injury if: – Evidence of a head injury with ongoing change in the person's level of consciousness. – Complaints of severe pain in head or back. – A substantial force was on sustained on back or head. – Complaints of weakness, numbness or paralysis or lacks control of his or her limbs, bladder or bowel. – Neck or back is twisted or positioned oddly.

19. On-Site Diagnosis of Spinal Injury Questions to ask: – name – location of injury – time of day – Incident If the person cannot accurately answer at least the first three questions, he or she is not a "reliable patient," and a spinal cord injury cannot be ruled out.

20. Look for any signs of drug or alcohol use. – the patient is not reliable if (+). Check for "distracting injuries" – injuries painful enough to distract the injured patient due to severe pain at the spine and head. Spinal cord injury cannot be ruled out. On-Site Diagnosis of Spinal Injury

21. Instruct the injured person to move his or her fingers and toes. – If any motion is difficult or impossible, or if the person is abnormally weak, there may be a spinal injury. Squeeze the fingers and toes gently. – If any numbness or tingling, the spine may be injured. On-Site Diagnosis of Spinal Injury

22. Palpate each vertebrae with moderate pressure, from the top of the neck to the bottom of the back. Look for any signs of pain. On-Site Diagnosis of Spinal Injury

23. While waiting for paramedics, patient’s neck should always be immobilized – Rigid cervical collar, skull tract, halo brace etc.

24. ER Diagnosis of Spinal Injury Detailed History – Details of event – Previous history of injuries Physical Examination – Neurological Exam with more detailed attention.

25. ER Diagnosis of Spinal Injury Neurological Exam – Mental status – Cranial nerves – Motor Strength – Sensation – Coordination – Reflexes – Gait

26. Diagnosis To diagnose the presence of spinal cord injuries, these imaging modalities may be used: – Plain film (X-ray) – CT Scan – MRI

27. Plain Film Advantages: – Rapid survey of the bony spine Presence, level and type of lesion – Fracture – Dislocation – Subluxation Disadvantages: – Cannot adequately evaluate lower cervical and upper thoracic spine because of the shoulder girdle – A single view is inadequate: 3 views at least

28. CT Scan Advantage: – Good for Characterizing fractures on Plain Film – Characterize suspicious lesions on Plain Film – Can Visualize C7-T1 when not seen on Plain Film – Combination of Plain Film and CT: false negative of less than.1% – Especially useful in posterior vertebral injuries Fine Slice with Sagittal and Coronal Reconstruction – Must include the entire vertebral body above and below the lesion of interest

29. MRI Advantages: – Best in demonstrating injuries to soft tissue the neural elements, especially the spinal cord – Contusions – Ischemia – Traumatic disk herniations – Ligamentous injuries – Canal compromise – Vertebral Artery injury – If the neurologic level of injury does not match the area of injury identified by standard radiographs

30. Prevention Safety tips for preventing the occurrence of a SCI Motor vehicles are the leading cause of SCI in the United States for people under age 65 (Berkowitz 1998). Here are some safety tips for driving and riding in motor vehicles. – Always wear a seat belt. – Secure or buckle children into age- and weight-appropriate child safety seats. – Secure or buckled children under 12 years old in the back seat to avoid air bag injuries. – Never drive under the influence of alcohol or drugs. – Do not ride in a car with a driver who is impaired by alcohol or drugs.. – Prevent others from driving while impaired by alcohol or drugs. http://www.cdc.gov/ncipc/factsheets/sciprevention.ht m

31. Prevention The following might have prevented spinal cord injury to our patient: – Avoid riding motorcycles. – Always wear a helmet. – Proper transport of the injured person. (Stabilize neck and back, and avoid unnecessary changes in position)